Fall/annually/1-credit hour course. The Graduate Neuroanatomy course will provide a broad overview of the structure and function of the central nervous system. The general architecture of the nervous system and its functional systems are presented in a series of online exercises. The exercises allow the students to examine brain anatomy at a detailed view of the regional anatomy of the brain and spinal cord. MRIs of brain anatomy, as commonly presented in the scientific literature, will be presented using a computerized learning system. [[Beauchamp:GraduateNeuroanatomy|Click here for web page for Graduate Neuroanatomy Course]]

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<h4>2012</h4>

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Here are slides presented in June 2012 at the Institute of Psychology of the Chinese Academy of Sciences

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#[[media:BeijingJune2012.pdf.pdf|Institute of Psychology of the Chinese Academy of Sciences]]

The NeuroLab CD contains incorrect information on the location of the frontal eye fields. This PDF shows the correct location

The NeuroLab CD contains incorrect information on the location of the frontal eye fields. This PDF shows the correct location

[[media:Lab7FrontalEyeFields.pdf|FrontalEyeFields]]

[[media:Lab7FrontalEyeFields.pdf|FrontalEyeFields]]

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<h5>Lab 8 Notes</h5>

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<h5>2011 Lab 8 Notes</h5>

Many of the structures in Lab 8 can be seen on MRI. The following PDF contains labeled MRI sections.

Many of the structures in Lab 8 can be seen on MRI. The following PDF contains labeled MRI sections.

[[media:Lab8MRI.pdf|Lab8MRI]]

[[media:Lab8MRI.pdf|Lab8MRI]]

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<h5>Lecture Slides</h5>

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<h5>2010 Lecture Slides</h5>

Here are slides presented for Introduction to Neuroimaging on January 22, 2010

Here are slides presented for Introduction to Neuroimaging on January 22, 2010

[[media:2010Lecturev2.pptx|Neuroimaging]]

[[media:2010Lecturev2.pptx|Neuroimaging]]

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<h4>MS4 Neuroimaging Elective: BSCI 4008</h4>

<h4>MS4 Neuroimaging Elective: BSCI 4008</h4>

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Dr. Beauchamp offers a neuroimaging elective for 4th year medical students interested in specialties where brain disorders are an important contributor to disease. Students will select a disorder of interest and learn how neuroimaging could be used for diagnosis or treatment. For instance, obesity (Internal Medicine); dementia (Geriatrics); tumor (Neurosurgery); cerebral infarcts (Radiology); epilepsy (Neurology); dyslexia (Pediatrics); bipolar disorder (Psychiatry). No technical background or experience with neuroimaging is required.

The main graduate course offered by Dr. Beauchamp is titled "Introduction to fMRI".

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The course is taught in <b>even years only</b>.

The web page for students in this course to submit assignments and receive information about the course is

The web page for students in this course to submit assignments and receive information about the course is

https://owlspace-ccm.rice.edu/portal

https://owlspace-ccm.rice.edu/portal

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For 2012 - 2013, this course will be offered on Monday afternoons from 2 pm to 5 pm in UT MSB B.100

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The first class will be Monday September 10 and the last class will be Monday December 10th. There will be no class on October 15th (Society for Neuroscience annual meeting). In general, the course follows the schedule of the UT GSBS.

This course is intended for graduate students, post-doctoral fellows and faculty who are interested in using fMRI for their research. A small number of undergraduates may also enroll in the course solely at the discretion of the instructor (only undergraduates who are currently working in a laboratory that uses functional MRI study will be considered). The course is primarily offered through the University of Texas Graduate School of Biomedical Sciences (http://gsbs.uth.tmc.edu/courses/gs140053.html). The course is also cross-listed at Rice University in the Psychology and Bioengineering departments (as Psych 579 and BioE 571) and in the Baylor College of Medicine Graduate School of Biological Sciences (as GS-NE-439). If you are a student at UT, Rice or Baylor contact your registrar for enrollment information.

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This course is intended for graduate students, post-doctoral fellows and faculty who are interested in using fMRI for their research. A small number of undergraduates may also enroll in the course solely at the discretion of the instructor (only undergraduates who are currently working in a laboratory that uses functional MRI study will be considered). The course is primarily offered through the University of Texas Graduate School of Biomedical Sciences GSBS 140053 (http://www.uthouston.edu/gsbs/current-students/academics/course-listing/courses/neuroscience/gs140053-introduction-to-functional-magnetic-resonance-imaging-.htm). The course is also cross-listed at Rice University in the Psychology and Bioengineering departments (as Psych 579 and BioE 571) and in the Baylor College of Medicine Graduate School of Biological Sciences (as GS-NE-439) (http://neuro.bcm.edu/?sct=neuro_think&gp=cdescript). If you are a student at UT, Rice or Baylor contact your registrar for enrollment information.

If you are a student at University of Houston, it is probably easiest to enroll in the course via cross-registration through Rice University. (UT requires vaccination records for cross-registration which is annoying). However, if you would like to enroll through UT, please visit this web page for information about enrolling in the course:

If you are a student at University of Houston, it is probably easiest to enroll in the course via cross-registration through Rice University. (UT requires vaccination records for cross-registration which is annoying). However, if you would like to enroll through UT, please visit this web page for information about enrolling in the course:

http://registrar.uth.tmc.edu/Registration/ConcurEnrollment.html

http://registrar.uth.tmc.edu/Registration/ConcurEnrollment.html

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The textbook for this course is "Functional Magnetic Resonance Imaging", 2nd edition, by Huettel, Song and McCarthy.

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The textbook for this course is "Functional Magnetic Resonance Imaging", <b>2nd edition</b>, by Huettel, Song and McCarthy.

or it is available at the UT bookstore at a 10% discount. For more information on the UT bookstore:

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https://www.webmedbooks.com/uthouston/content/contact.aspx

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The course is taught in <b>even years only</b> on Tuesdays from 2 pm to 5 pm in UT MSB B.645.

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In 2010, the first class will be Tuesday Aug 31 and the last class will be Tuesday December 7th. There will be no class on October 5th (AFNI workshop), November 16th (Society for Neuroscience annual meeting) or Tuesday November 23rd (Thanksgiving).

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<h4>Other Courses and Lectures</h4>

<h4>Other Courses and Lectures</h4>

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A GSBS course on MRI physics is shown here

A GSBS course on MRI physics is shown here

http://www.uthgsbsmedphys.org/GS02-0193/default_2009.htm

http://www.uthgsbsmedphys.org/GS02-0193/default_2009.htm

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[[media:IUTalk.pdf|Lecture at Indiana University in February of 2004]]

Courses

2013

GS14 1181: Graduate Neuroanatomy
Fall/annually/1-credit hour course. The Graduate Neuroanatomy course will provide a broad overview of the structure and function of the central nervous system. The general architecture of the nervous system and its functional systems are presented in a series of online exercises. The exercises allow the students to examine brain anatomy at a detailed view of the regional anatomy of the brain and spinal cord. MRIs of brain anatomy, as commonly presented in the scientific literature, will be presented using a computerized learning system. Click here for web page for Graduate Neuroanatomy Course

2012

Here are slides presented in June 2012 at the Institute of Psychology of the Chinese Academy of Sciences

MS4 Neuroimaging Elective: BSCI 4008

AFNI/fMRI Short Course

Dr. Bob Cox, the Director of the Scientific and Statistical Computing Core at the National Institute of Mental Health Intramural Research Program will be visiting Houston on October 4-8, 2010. Together with his staff, Dr. Cox will teach a 5-day course on fMRI data analysis with the AFNI software package.
Click for more information on the short course

Introduction to fMRI

The course is taught in even years only.
The web page for students in this course to submit assignments and receive information about the course is
https://owlspace-ccm.rice.edu/portal
For 2012 - 2013, this course will be offered on Monday afternoons from 2 pm to 5 pm in UT MSB B.100
The first class will be Monday September 10 and the last class will be Monday December 10th. There will be no class on October 15th (Society for Neuroscience annual meeting). In general, the course follows the schedule of the UT GSBS.

This course is intended for graduate students, post-doctoral fellows and faculty who are interested in using fMRI for their research. A small number of undergraduates may also enroll in the course solely at the discretion of the instructor (only undergraduates who are currently working in a laboratory that uses functional MRI study will be considered). The course is primarily offered through the University of Texas Graduate School of Biomedical Sciences GSBS 140053 (http://www.uthouston.edu/gsbs/current-students/academics/course-listing/courses/neuroscience/gs140053-introduction-to-functional-magnetic-resonance-imaging-.htm). The course is also cross-listed at Rice University in the Psychology and Bioengineering departments (as Psych 579 and BioE 571) and in the Baylor College of Medicine Graduate School of Biological Sciences (as GS-NE-439) (http://neuro.bcm.edu/?sct=neuro_think&gp=cdescript). If you are a student at UT, Rice or Baylor contact your registrar for enrollment information.
If you are a student at University of Houston, it is probably easiest to enroll in the course via cross-registration through Rice University. (UT requires vaccination records for cross-registration which is annoying). However, if you would like to enroll through UT, please visit this web page for information about enrolling in the course:
http://registrar.uth.tmc.edu/Registration/ConcurEnrollment.html